Land Sharing – Sparing Continuum Debate - Overview
The concepts of land-sparing and land-sharing
Agriculture, occupying a significant portion of the Earth's surface, contributes to the reduction of biodiversity. Scientists are seeking solutions for the coexistence of agriculture and species conservation. Land sparing and land sharing are two dominant approaches, each with distinct advantages and disadvantages. In 2005, scientists from the University of Cambridge initiated a discussion on land sparing and land sharing as conservation approaches. Land sparing focuses on biodiversity conservation by leaving untouched land areas, while land sharing promotes the coexistence of agriculture and species within the same area.
This discussion evolved into the "Land Sharing vs Land Sparing Debate," focusing on the effectiveness and advantages of each approach. These approaches spark division and concern about the future of the agroecosystem and the conflict between agriculture and biodiversity conservation.
Comparison of the Two Approaches
Many questions have occupied researchers and critics in recent years regarding the ultimate suitability of the two methods for implementation. Answers had to be provided regarding whether biodiversity benefits more from integrating elements of natural habitats into agricultural ecosystems or from their separation.
- To what extent is it feasible to combine these two approaches, and if they cannot be combined, which one can be considered more effective in preventing malnutrition and species extinction?
- In essence, can sufficient food be produced for humans without impacting the rest of the planet's species? (ATBC Meeting, 2017).
According to experimental studies, the land-sparing approach in nature conservation seems to bring more benefits at the local level in the short term. Specifically, research in various regions such as Ghana, India, Brazil, and Uruguay suggests that biodiversity is better preserved in areas untouched by agricultural activity. Additionally, studies from Oregon State University indicate that smaller cultivated areas and larger conservation areas favor larger populations of species. It is also emphasized that agroforestry does not replace real forests, and organic farming does not effectively protect beneficial microorganisms compared to intensive agriculture.
Claire Kremen's research and colleagues from the University of California highlight weaknesses in the land-sparing approach, as experiments show limitations in the predictability of long-term outcomes, both environmentally and socially. Furthermore, there is an emphasis on the need to integrate all species into human-managed landscapes, as studies have shown that some locally isolated organisms face extinction. Additionally, an experiment in elephant grasslands in Kenya revealed that leaving nature untouched, even in protected areas, does not provide complete protection. Only 3% of the risks were mitigated through land sparing, while areas with human agricultural activity maintained their populations, especially in terms of native flora.
Image source: http://community.rspb.org.ukourworkbsciencepostssparing-or-sharing
At the 54th Annual Conference of the Association for Tropical Biology and Conservation, held in July 2017 with the theme "Conservation of Tropical Biodiversity: Ecological and Social Dimensions," Dr. I. Perfecto highlighted the reasons why the need for the existence and preservation of a unified agroecological framework, rather than separation, is crucial for both food production and biodiversity conservation.
The key points she emphasized include:
- The assertion that there is a need to increase global food production is incorrect, as the daily food produced reaches 4,600 calories per person per day (iPES Food, 2016; FAO, 2002; Chapell & Lavalle, 2011).
- Intensive agriculture does not produce more food compared to diverse agricultural ecosystems, as 70% of the food consumed by people actually comes from smallholders and household farms. Smallholders produce 50% of the consumed food on only a quarter of the land compared to industrialized cultivation, which uses 70% of the land to feed 30% of the population (ETC, 2009).
- Local extinctions of species are a natural phenomenon that will always occur, regardless of human activities (Newmark, 1995).
- Out of the 17 studies conducted in Latin America, Asia, and Africa regarding land sparing, 75% showed positive results in terms of biodiversity conservation and food production. However, all of them demonstrated significant forest degradation occurring simultaneously.
To defend the land-sparing model, Ben Phalan, at the same conference, positioned himself around the following axes:
- Many species on the planet are considered rare and sensitive, requiring targeted protection, which can certainly be achieved through separation and not through integration (Forister et al., 2015).
- The separation model is not intended to be applied everywhere, but initially, perhaps first in areas of the planet where increased food production is required; therefore, high land yields are essential.
- The key to this method is to increase production and primarily to enhance soil productivity and have better control over it. The significant aspect is not to generate more food than with integration but to produce it differently, on a smaller scale, gradually leaving more space for natural ecosystems and wildlife to thrive.
- The purpose of separation is not to distance humans from nature but rather to relocate agricultural activities from areas that are essential for preservation and protection. (ATBC Meeting, 2017).
Ecological Impact of the 2 approaches
According to scientists, the debate on separation or integration into agriculture for nature protection is futile because it lacks a long-term perspective across all agricultural lands regarding their ecological services. Neither of the two approaches considers the required balanced management needed for the multifunctionality of all ecosystems. Integration focuses on ecosystem services within agricultural lands, while separation isolates natural elements with an impact on organism movement. The combination of both methods and strategies is recommended for the connectivity of agricultural lands to ensure biodiversity and the continuous functioning of ecosystems. Additionally, intensive agriculture has negative impacts on biodiversity and leads to the depletion of natural resources, regardless of the area, due to the use of chemicals and fossil fuels.
The Social and Ethical Issues that arise
The dialogue on separation or integration into agriculture highlights ethical and social issues. The strategy we choose affects the world we want to live in, with some arguing that integration provides access to food and nature for more people, while separation may distance us from natural landscapes. The ethical dimension is manifested in the conflict between "separatists" advocating for nature's values versus "integrators" seeking to serve human needs. The contradiction in this issue is reflected in the need to combine different research fields for a comprehensive understanding. At the same time, the diversity of opinions is underscored by the lack of common results among researchers, highlighting the significant complexity of the issue.
Undressing the economic and political aspects of land-sparing and land-sharing
Contrary to social concerns, the economic aspect of the issue is addressed in a few articles, focusing either on integration versus separation or food production versus biodiversity. The study by the International Council for Research in Agroforestry (ICRAF) explores economically sustainable alternatives to slash-and-burn practices in Southeast Asian forests. The research examines the idea of intensifying agriculture for land conservation and analyzes the trade-offs between rural production, economic development, and the environment. Additionally, it explores the dilemma of integration versus separation in land management for biodiversity conservation and simultaneous agricultural production increase. Studies approach the issue with the concept of "partial compromise," emphasizing the importance of combining integration and separation to preserve biodiversity and food security.
The realm of politics states that the choice between separation and integration in agriculture lacks clear directions to ensure the long-term well-being of both humans and wildlife. The separation method has positive outcomes but requires approaches that strengthen biodiversity conservation and address global food security issues. Both approaches advocate for targeted environmental policies but differ in how they should be implemented. While separation proposes policies for better compartmentalization of ecosystems, integration supports a holistic agroecological approach. Model results support that a balance between biodiversity conservation and increased agricultural production can be achieved through mixed strategies.
Conclusion remarks
The Land Sparing vs. Land Sharing debate analyzes strategies for biodiversity conservation and enhancing agricultural production. Studies support that integration has environmental benefits but reduced yields in food production, while separation brings high yields. Deeper research, including socio-economic factors, is recommended, emphasizing the need for detailed studies with clarity in data while highlighting the challenge of uneven food distribution. The implementation of policies against waste and intensive animal farming is suggested, with an emphasis on combining integration and separation methods. Lastly, a deeper analysis of soil heterogeneity and advocacy for biodiversity is proposed for aligning nature and food care in a sustainable direction.
Furthermore, despite separation and integration being presented as two opposing approaches, they essentially showcase an immense variety of strategies and measures with a common goal. In many studies, these approaches overlap in certain instances. It is a common phenomenon, despite the "opposition" of methods, for one to adopt elements of the other, leading to the conclusion that, since the published studies serve as significant reference points for the evolution of research and as pillars for shaping policies related to species biodiversity and food security, they must be highly detailed and clear in presenting the information. They should take into account, if not all, as many parameters as possible and ensure possible future impacts with the greatest accuracy possible.
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